An On-Chip, AttoFarad Interconnect Charge-Based ... An On-Chip, Attofarad Interconnect Charge-Based Capacitance Measurement. (CBCM) Technique. James C. Chen, Bruce W. McGaughy, Dennis Sylvester, and ...
TH-05, Charge-Based Capacitance Measurements Circuits ... Charge-Based Capacitance. Measurement Circuits for Interface with Atomic Force Microscope. Probes. Joseph J. Kopanski, M. Yaqub Afridi, Chong Jiang*,.
An on-chip, attofarad interconnect charge-based ... In this paper, a sensitive and simple technique for parasitic interconnect capacitance measurement with 0.0l fF or 10 aF sensitivity is presented. This on-chip ...
Investigation of interconnect capacitance characterization ... Abstract—This paper examines the recently introduced charge- based ... charge-based capacitance measurement (CBCM) [3], has been developed to ...
Improvements to CBCM (charge-based capacitance ... Accurate measurement and analysis of interconnect capacitance is a critical component of nanometer technology verification. The charged-based capacitance ...
Charge-based capacitance measurements (CBCM) - IEEE ... 2002年3月26日 - Proceeding from the charge-based capacitance measurement technique suggested recently, a compact test structure with high resolution.
Investigation of interconnect capacitance characterization ... This paper examines the recently introduced Charge-Based Capacitance Measurement (CBCM) technique through use of a 3-D interconnect simulator.
Application of charge based capacitance measurement ... The charge based capacitance measurement (CBCM) technique (Chen et al, IEDM p. 69, 1996) was used in order to measure femto-farad level intermetal ...
Accuracy Assessment and Improvement of On-Chip Charge ... years charge-based capacitance measurement (CBCM) techniques have ... necessary to fully charge (or discharge) the capacitance of interest Cx at a fixed bias ...
Charge-based on-chip measurement technique for the ... Charge-based capacitive measurements (CBCM) [1] are gaining importance for on chip interconnect capacitance extraction because of their accuracy and.
